KR20170079762A - An automatic honey collecting module and the device in use with it - Google Patents

Abstract

A lower cover unit (100); A half hexagon fixing unit 200 fixed to the lower cover unit 100 with a plurality of first half hexagons 211 formed thereon; The first half hexagon end portion 212 and the second half hexagon end portion 312 are brought into close contact with each other to form a hexagon and the second half hexagon 311 is formed in sliding contact with the half hexagon fixed unit 200 while the second half hexagon 311 is formed. And a second position where the second half hexagon end 312 is spaced apart from the first half hexagon end 212. The half hexagon slide unit < RTI ID = 0.0 >300); The honeycomb module is advantageous in that honey can be easily collected without disassembling the housing by a simple operation.

Description

[0001] The present invention relates to an automatic honey collecting module,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automatic honeycomb module and an automatic honeycomb device having the honeycomb module.

Honey is a product obtained by collecting flower honey and pollen from flowers using bees.

In many countries where sugar production is abundant as a part of self - sufficiency of sweeteners, honey bee is promoted and directed by promoting beekeeping, and the consumption of such honey as a sweetener is gradually increasing.

On the other hand, honey is used as a medicinal and nutritional agent both east and west, and it is also used as an industrial and cosmetic raw material.

Bees are also a pollinator of crops to increase the fertility rate of crops. Beekeeping is a very encouraging industry because the importance and significance of beekeeping can be very large.

However, there has been a problem that the conventional honey bees have to be accompanied by complicated processes and efforts.

Inside the beehive is a honeycomb that allows honey bees to build a house and collect honey. When honey bees fill honey in a hexagon shaped honeycomb, they dismantle the beehives, take out the honeycomb, put the honeycomb into a high speed rotor, It took a complicated process of harvesting.

In order to simplify such complex procedures, U.S. Published Patent Application No. 2014-0370781 provides a device for allowing honey contained in a honeycomb to flow down by not separating the honeycomb itself but by centrifugal force.

However, in the above-mentioned U.S. Patent Application Publication No. 2014-0370781, each of the plates constituting the honeycomb is connected to the cam rotating at the upper end so that the cams can be rotated and dislocated and rotated repeatedly, There was a problem.

That is, the apparatus of U.S. Published Patent Application No. 2014-0370781 is not suitable for an environment in which beehives must be moved by moving the beehive housing, and there is a limitation in collecting honey only in a fixed form without positional movement.

Therefore, replacement of parts and cleaning of the honeycomb are very troublesome and complicated problems still remain.

That is, the device for collecting honey of U.S. Patent Publication No. 2014-0370781 still has a problem because its structure is very complicated.

(Patent Document 1) US2014-0370781 A1

(Patent Document 1) KR476713 B1

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide a honeycomb module and a honeycomb device for the honeycomb module, The purpose is to do.

In order to solve the above-described problems, the present invention provides a lower cover unit 100, A half hexagon fixed unit 200 fixed to the lower cover unit 100 with a first half hexagon 211 formed thereon; The first half hexagon end portion 212 and the second half hexagon end portion 312 are brought into close contact with each other to form a hexagonal structure while the second half hexagon 311 is formed and is slidably engaged with the half hexagon fixed unit 200, (300) coupled to the lower cover unit (100) such that the second half hexagon end (312) is slidable between a first position where the second half hexagon end (312) is spaced from the first half hexagon end (212) ; And a honeycomb module (M).

The lower cover unit 100 also flows into a gap formed between the first half hexagon end 212 and the second half hexagon end 312 when the half hexagon slide unit 300 is in the second position A honeycomb groove (103) for receiving the falling honey; The automatic honey collection module M can be provided.

In addition, the honeycomb groove 103 may include a honeycomb module M having a U-shaped cross section.

The honeycomb groove 103 may include a honeycomb module M having an inclination along the longitudinal direction of the lower cover unit 100.

An opening / closing unit (700) for opening / closing an end of the honeycomb groove (103); And a honeycomb module (M).

The lower cover unit 100 is formed with a first protrusion 107 and a second protrusion 108 protruding from a support surface 105 formed along an inner side surface of the lower cover unit 100. The lower end of the half- Wherein the lower end 302 of the half hexagon slide unit is spaced apart from the first projection 107 and the second projection 108 at the first position, And an automatic honey collection module (M) in contact with the first protrusion (107) and the second protrusion (108).

The distance between the lower end 302 of the half hexagon slide unit and the upper end of the first protrusion 107 and the upper end of the second protrusion 108 at the first position is smaller than the distance between both ends of the first half hexagon 211 Half or a half of the distance between the opposite ends of the second half hexagon 311.

The lower cover unit 100 is further provided with a honey automatic sampling module M having the first half hexagon 211 and the third half hexagon 111 corresponding to the second half hexagon 311 formed at the first position, ).

The first half hexagon 211 has an inclination such that the height of the first half hexagon 211 decreases from both sides of the half hexagon fixing unit 200 toward the center of the half hexagon fixed unit 200, May provide a honey automatic picking module M having a slope such that the height decreases from both sides of the half hexagon slide unit 300 toward the center thereof.

An upper cover unit 400 coupled to the upper ends of the half hexagon fixing unit 200 and the half hexagon sliding unit 300; A side cover unit 500 disposed on a side surface of the half hexagon slide unit 300 and coupled to the lower cover unit 100; And a push bar 600 coupled to the half hexagon slide unit 300 and slidably driving the half hexagon slide unit 300 provided in the upper cover unit 400. [ .

The side cover unit 500 may include an automatic honey collection module M having a honey discharge unit 530 formed therein.

The honeycomb module M includes a housing 800 provided with the automatic honeycomb module M and the fixing arm protruding from the side cover unit 500 is fixed to the housing 800, The automatic honeycomb device 1000 may be provided to be spaced apart from the bottom surface 833 of the housing 800.

The present invention as described above has the following effects.

First, since the housing 800 having the honey automatic picking module M has no part protruding separately on the side, it is advantageous that a plurality of the housings 800 can be attached side by side.

Second, since the honeycomb module (M) and the housing (800) have a detachable structure, the housing (800) can be easily moved to another area, and the honeycomb module can be easily separated and washed or repaired.

Third, since the honeycomb groove 103 has an inclination along the longitudinal direction of the lower cover unit 100, it is possible to collect honey easily without tilting the honey automatic sampling module M.

Fourth honey honeycomb module (M) The first half hexagon (211) has a slope so that the height decreases from both sides of the half hexagon fixed unit (200) toward the center of the half hexagon fixed unit (200) The half-hexagon 311 has a slope so that the height decreases from both sides of the half-hexagon slide unit 300 toward the center, so that honey can be collected more quickly and smoothly.

Fifth, since the honeycomb unit 700 has the opening / closing unit 700 that allows the honey flowing through the flow path to flow out to the outside of the automatic honeycomb module M, there is a convenience that the honey can be recovered with only a simple operation.

Sixth, because it has a push bar, there is no need for a complicated driving mechanism, and honey can be easily collected with a simple push operation.

Seventh, there is a merit that honey can be easily collected without disassembling the housing by a simple operation.

1 is a perspective view of an automatic honey collection module M according to a first preferred embodiment of the present invention.
FIG. 2 is an exploded perspective view of a honey automatic sampling module M according to a first preferred embodiment of the present invention.
FIG. 3 is an enlarged cross-sectional view of the upper edge portion of the automatic honey collection module M according to the first preferred embodiment of the present invention.
4 is a bottom partial cross-sectional view of a honey automatic picking module M at a first position in the first preferred embodiment of the present invention.
Figure 5 is a partial cross-sectional view of a second position according to a preferred embodiment of the present invention.
6 is an exploded perspective view of an automatic honey collection module M according to a second preferred embodiment of the present invention.
7 is an enlarged perspective view of the opening and closing unit 700 and the honey discharge unit 530 in the preferred embodiments of the present invention.
FIG. 8 is a cross-sectional view of an automatic honey collecting apparatus 1000 provided with a honey automatic sampling module M according to a first preferred embodiment of the present invention.
9 is a cross-sectional view of an automatic honeycomb collecting apparatus 1000 equipped with a honey automatic sampling module M according to a second preferred embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, the definitions of these terms should be described based on the contents throughout this specification.

1 is a perspective view of an automatic honey collection module M according to a first preferred embodiment of the present invention.

The lower cover unit 100 may include a plurality of half hexagon fixed units 200 and half hexagon slide units 300. The half hexagon fixed unit 200 and the half hexagon slide unit 300 may be arranged in parallel Can be alternately repeated.

The half hexagon fixing unit 200 is coupled to the lower cover unit 100 while the plurality of first half hexagons 211 are formed.

The half-hexagon slide unit 300 is slidably engaged with the half-hexagon fixed unit 200 while a plurality of second half-hexons 311 are formed.

More specifically, the half hexagon slide unit 300 is slidably coupled to the honey automatic sampling module M in the vertical direction. The first half hexagon end 212 and the second half hexagon end 312 are in close contact with each other And is coupled to the lower cover unit 100 so as to be slidable between a first position where the hexagonal hexagon is completed and a second position where the second half hexagon end 312 is spaced from the first half hexagon end 212. [

Since the half hexagon slide unit 300 is connected to the push bar 600, it is slidable in the up and down direction in the honey automatic picking module M by the operation of the push bar 600.

On the other hand, the half hexagon fixing unit 200 is fixed between the lower cover unit 100 and the upper cover unit 400 in the honey automatic picking module M.

The side cover unit 500 closes the entire side of the honeycomb module M while finishing the ends of the lower cover unit 100 and the upper cover unit 400.

In other words, in the honey automatic picking module M, the half hexagon fixed unit 200 and the half hexagon slide unit 300 are formed by the lower cover unit 100, the upper cover unit 400 and the side cover unit 500 It is arranged in space.

Meanwhile, as will be described later, the lower cover unit 100 is provided with a flow path through which the extracted honey flows, and an opening / closing unit 700 capable of allowing the honey flowing through the flow path to flow out of the automatic honeycomb module M is provided.

FIG. 2 is an exploded perspective view of a honey automatic sampling module M according to a first preferred embodiment of the present invention.

The upper cover unit 400 is coupled to the upper ends of the half hexagon fixed unit 200 and the half hexagon slide unit 300.

The side cover unit 500 is disposed on the side of the half hexagon slide unit 300 and is fastened to the lower cover unit 100.

The push bar 600 is engaged with the half hexagon slide unit 300 while being provided on the upper cover unit 400 to slide-drive the half hexagon slide unit 300.

A honeycomb unit 530 is formed in the side cover unit 500.

The lower cover unit 100 has a honeycomb groove 103 having a generally U-shaped cross-sectional shape.

It is preferable that the honeycomb groove 103 has an inclination along the longitudinal direction of the lower cover unit 100. This is because the honey separated from the honeycomb groove 103 flows naturally toward the honeycomb unit 530 .

On the other hand, a first fastening portion 141 is formed at one end of the lower cover unit 100, and a second fastening portion 142 is formed at the other end thereof.

The first side cover unit 510 may be coupled to the first coupling unit 141 and the second side cover unit 520 may be coupled to the second coupling unit 142.

The half hexagon slide unit 300 can be coupled to the lower cover unit 100 while the second side cover unit 520 is coupled to the second fastening portion 142 and the half hexagon slide unit 300 can be coupled to the side of the half hexagon slide unit 300 And the half hexagon fixing unit 200 is coupled to the lower cover unit 100.

The first penetrating portion 201 is formed on the upper end of the half hexagon fixing unit 200 and the second penetrating portion 301 is formed on the upper end of the half hexagon fixing unit 200.

The fourth through-hole 524 is formed at the upper end of the second side cover unit 520.

The slide unit fastening bar 607 of the push bar 600 is inserted into the first penetrating portion 201, the second penetrating portion 301 and the second fastening arm 522 and the end of the slide unit fastening bar 607 Is connected to the connection unit (605).

Although the pair of half hexagon fixed unit 200 and half hexagon slide unit 300 are shown in FIG. 2, as shown in FIG. 1, the pair of half hexagon fixed unit 200 and half hexagon slide unit 300 And may be repeatedly provided in the lower cover unit 100. [

On the other hand, a second fixing arm 522 protrudes from the upper side of the second side cover unit 520.

The first side cover unit 510 is coupled to the first coupling unit 141 of the lower cover unit 100 and the first side cover unit 510 is also provided with a first fixing arm 512 on the upper side outer wall thereof .

A third penetrating portion 513 is formed at the upper end of the first side cover unit 510 and a third penetrating portion 513 is a portion into which the slide unit fastening bar 607 of the push bar 600 is inserted.

Meanwhile, a honeycomb unit 530 may be formed at the lower end of the first side cover unit 510.

The honey discharging portion 530 communicates with the honeycomb groove 103.

It is of course possible to further include a sealing member (not shown) between the first side cover unit 510 and the first coupling part 141 to maintain the airtightness of the fluid.

The honeycomb groove 103 forming the end of the lower cover unit 100 is openable and closable by the opening / closing unit 700.

More specifically, the first side cover unit 510 is coupled to the lower cover unit 100, and the honey discharge unit 530 can be opened and closed by the opening / closing unit 700.

The opening and closing unit 700 may include a cap unit 710 and an auxiliary unit 720.

The auxiliary unit 720 may be extrinsic to the cap unit 710 and may be made of a material that is easy to grip and does not slip.

More specifically, the auxiliary unit 720 may be formed of a circular pipe. The auxiliary unit 720 may be connected to a honey discharging portion 530 communicated with the honeycomb groove 103 to thereby transfer the honeycomb of the honeycomb groove 103 .

The detailed structure and operation principle of the half hexagon fixed unit 200 and the half hexagon slide unit 300 will now be described in detail with reference to the accompanying drawings.

FIG. 3 is an enlarged cross-sectional view of the upper edge portion of the automatic honey collection module M according to the first preferred embodiment of the present invention.

The push bar 600 is formed in a 'C' shape in which the slide unit fastening bar 607 and the support bar 603 are entirely opened at one side and the connection unit 605 is coupled to the opened portion.

The grip portion 601 is engaged with the upper end of the support bar 603.

The slide unit fastening bar 607 is inserted into the third penetrating portion 513, the first penetrating portion 201, the second penetrating portion 301 and the fourth penetrating portion 524 of FIG.

The through hole height of the first through hole 201 mentioned above is formed to be larger than the through hole height of the second through hole 301.

More specifically, the height of the second penetrating portion 301 is equal to the thickness of the slide unit fastening bar 607, so that when the slide unit fastening bar 607 moves, the half hexagon slide unit 300 moves together with the pushing bar 600 It is possible to move.

However, even if the slide unit fastening bar 607 moves because the first fastening unit 201 is inserted through the slide unit fastening bar 607 but is formed to be wider than the maximum operating range of the slide unit fastening bar 607 And does not move together with the slide unit fastening bar 607.

The upper end of the half hexagon fixed unit 200 and the upper end of the half hexagon slide unit 300 all come into close contact with the lower surface of the upper cover unit 400, and the position at this time is referred to as a "first position".

At the first position, the half-hexagon fixed unit 200 and the half-hexagon slide unit 300 complete a hexagonal hexahedron to complete the honeycomb.

On the other hand, the upper cover unit 400 protrudes from the upper guide wall surface 430 with the first guide protrusion 411 and the second guide protrusion 412 being spaced apart from each other by a predetermined distance on the inner side surface, similarly to the first embodiment .

More specifically, the first guide protrusion 411 and the second guide protrusion 412 are protrusions formed in the upper guide wall surface 430 in a downward direction from the inner upper end of the upper cover unit 400.

A guide groove 413 is formed between the first guide protrusion 411 and the second guide protrusion 412. The guide groove 413 guides the side portion of the half hexagon slide unit 300 to the half hexagon slide unit 300 Can be slid vertically up and down without shaking when the push bar 600 is slid in the vertical direction.

Meanwhile, the side portion of the half hexagon fixing unit 200 may be in close contact with the side surfaces of the first guide protrusion 411 or the second guide protrusion 412.

The lower surface of the upper cover unit 400 has a sixth surface 421 and a tenth surface 425 forming the lowermost surface and a seventh surface 423 connecting the sixth surface 421 and the tenth surface 425, The ninth surface 422, the eighth surface 423, and the ninth surface 424.

This corresponds to the half-hexagon located at the top of each of the second half hexagon 311 of the half-hexagon slide unit 300 and the first half hexagon 211 of the half-hexagon fixed unit 200 to form a complete hexagon to be.

In other words, the seventh surface 422, the eighth surface 423, and the ninth surface 424 together with the half hexagon fixed unit 200 and the half hexagon slide unit 300 form a complete hexagon.

4 is a bottom partial cross-sectional view of a honey automatic picking module M at a first position in the first preferred embodiment of the present invention.

A honeycomb groove 103 is formed in the lower cover unit 100. The inner surface of the lower cover unit 100 is formed such that the first protrusion 107 and the second protrusion 108 are repeatedly formed And a lower guide wall surface 130 which extends upward from the honeycomb grooves 103 in the upward direction.

The uppermost surface of the lower guide wall surface 130 of the lower cover unit 100 includes a first surface 121 and a fifth surface 125 and is provided between the first surface 121 and the fifth surface 125 in a downward direction A second side 122, a third side 123, and a fourth side 124 that form a half hexagon.

The third half hexagon 111 includes a second side 122, a third side 123 and a fourth side 124 to form half hexagon.

A plurality of third half hexagons 111 are repeatedly formed at the upper end of the lower cover unit 100. This is because the bottom half of the plurality of second half hexagons 311 provided in the half hexagon slide unit 300 and the half- Is formed at the lowermost one of the plurality of first half hexagons 211 provided in the unit 200 to form a complete hexagon.

In other words, in the first position, the third half hexagon 111 formed in the lower cover unit 100 corresponds to the half hexagon fixed unit 200 and the half hexagon slide unit 300 to form a hexagon of a complete cube.

The lower end portion 202 of the half hexagon fixing unit is fixed while being supported by the supporting surface 105. More specifically, the lower end portion 202 of the half hexagon fixing unit has a first protrusion 107 and a second protrusion 108, So as to be firmly fixed to the support surface 105 without being shaken.

The lower end 302 of the half hexagon slide unit is spaced apart from the uppermost end of the first projection 107 protruding upward from the support surface 105 at the first position.

The distance between the upper end of the first protrusion 107 and the lower end 302 of the half hexagon slide unit is the same as the distance at which the half hexagon slide unit 300 is slidable.

Figure 5 is a partial cross-sectional view of a second position according to a preferred embodiment of the present invention.

When the half hexagon slide unit 300 is in the second position, the honey can flow down through the gap formed between the first half hexagon end 212 and the second half hexagon end 312, and the flow- And is accommodated in the groove 103.

At the second position, the lower end 302 of the half hexagon slide unit does not descend further in contact with the first projection 107.

The distance between the lower end 302 of the half hexagon slide unit and the upper end of the first protrusion 107 or the second protrusion 108 at the aforementioned first position is equal to one half of the distance between the opposite ends of the first half hexagon 211 Half of the distance between the opposite ends of the second half-hexagon 311.

In addition, at the first position, the third half hexagon 111 is formed so as to correspond to the first half hexagon 211 and the second half hexagon 311.

The third half hexagon (111) provides a passage for the bees to enter and exit the hexagon.

On the other hand, the first half hexagon 211 may have a slope such that the height decreases from both sides of the half hexagon fixing unit 200 toward the center of the half hexagon fixing unit 200.

In addition, the second half hexagon 311 may be inclined such that the height gradually decreases from both sides of the half hexagon fixed unit 200 toward the center of the half hexagon slide unit 300.

It should be understood that the inclination of the first half hexagon 211 and the second half hexagon 311 can be formed parallel to each other, which can equally be applied to the entire cross section of one complete hexagon in the first position something to do.

Since the inclination is formed in the first half hexagon 211 and the second half hexagon 311, the honey can smoothly flow downward along the inclination at the second position.

6 is an exploded perspective view of an automatic honey collection module M according to a second preferred embodiment of the present invention.

The upper cover unit 400 is coupled to the upper ends of the half hexagon fixed unit 200 and the half hexagon slide unit 300.

The side cover unit 500 is disposed on the side of the half hexagon slide unit 300 and is fastened to the lower cover unit 100.

The push bar 600 is engaged with the half hexagon slide unit 300 while being provided on the upper cover unit 400 to slide-drive the half hexagon slide unit 300.

The first handle 610 and the second handle 620 function as handle handles and a plurality of half hexagon fixed units 200 and half hexagon slide units 300 are mounted on the first side cover unit 510 and second The lower cover unit 100 and the upper cover unit 400 are firmly held between the side cover units 520.

The slide unit fastening bar 608 has a plurality of long grooves formed at both ends thereof and can be firmly coupled to the grooves in the first handle 610 and the second handle 620.

The first handle 610 and the second handle 620 can be bolted or screwed into the slide unit fastening bar 608. [

A honeycomb unit 530 is formed in the side cover unit 500.

The lower cover unit 100 has a honeycomb groove 103 having a generally U-shaped cross-sectional shape.

It is preferable that the honeycomb groove 103 has an inclination along the longitudinal direction of the lower cover unit 100. This is because the honey separated from the honeycomb groove 103 flows naturally toward the honeycomb unit 530 .

On the other hand, a first fastening portion 141 is formed at one end of the lower cover unit 100, and a second fastening portion 142 is formed at the other end thereof.

The first side cover unit 510 is coupled to the first coupling unit 141 and the second side cover unit 520 is coupled to the second coupling unit 142.

The half hexagon slide unit 300 can be coupled to the lower cover unit 100 while the second side cover unit 520 is coupled to the second fastening portion 142 and the half hexagon slide unit 300 can be coupled to the side of the half hexagon slide unit 300 And the half hexagon fixing unit 200 is coupled to the lower cover unit 100.

The first penetrating portion 201 is formed on the upper end of the half hexagon fixing unit 200 and the second penetrating portion 301 is formed on the upper end of the half hexagon fixing unit 200.

A fourth through-hole 524 is formed in the upper end of the second side cover unit 520.

The end surface of the fourth through-hole 524 at the upper end of the second side cover unit 520 is provided with a seating groove 525 which is formed by concavely forming an outer surface of the second side cover unit 520.

On the other hand, the second handle 620 has a protrusion 621 formed on the end surface thereof so as to correspond to the seating groove 525 and engageable with the seating groove 525.

A protrusion unit (not shown) is provided in the inner space of the second handle 620 and the second handle 620 is fixed to the second handle 620 by the slide unit fastening bar 608, (Not shown) at the time of entering the internal space, this state allows the first state to be maintained.

Further, the second handle 620 can be slidably moved in the longitudinal direction of the slide unit fastening bar 608 so as to be able to enter or retract.

The protrusion 621 of the second handle 620 is engaged with the seating groove 525 of the second side cover unit 520 when the second handle 620 enters the longitudinal direction of the slide unit fastening bar 608 The half hexagon slide unit 300 is positioned in the first position.

According to another embodiment of the present invention, the long groove portion 630 of FIG. 6 is formed to be long and narrow at both ends of the slide unit fastening bar 608.

The second handle 620 can be inserted into the slide unit fastening bar 608 (not shown) because the above-mentioned projection unit (not shown) can be accommodated in the long groove part 630 and can be moved laterally along the longitudinal direction of the long groove part 630. [ ).

That is, when the second handle 620 enters the longitudinal direction of the slide unit fastening bar 608, the projecting portion 621 of the second handle 620 is inserted into the seating groove 525 of the second side cover unit 520, The protruding unit (not shown) can be brought into close contact with the inner wall of the long groove portion 630.

The inner side wall of the long groove portion 630 refers to the side wall near the center of the slide unit fastening bar 608. [ It can be understood that the outer side wall of the long groove portion 630 indicates the side wall near the end direction of the slide unit fastening bar 608. [

On the other hand, when the second handle 620 is retracted in the longitudinal direction of the slide unit fastening bar 608, the protrusion 621 of the second handle 620 is inserted into the seating groove 525 of the second side cover unit 520, And when the second handle 620 is pressed, the half-hexagon slide unit 300 can be positioned at the second position where the half-hexagon slide unit 300 is lowered.

That is, when the second handle 620 is retracted in the longitudinal direction of the slide unit fastening bar 608, the protrusion 621 of the second handle 620 is inserted into the seating groove 525 of the second side cover unit 520, And the projection unit (not shown) can be brought into close contact with the outer wall of the long groove portion 630.

It can be understood that the outer wall of the long groove portion 630 refers to the side wall near the end direction of the slide unit fastening bar 608. [

Needless to say, the first handle 610 may be provided with the same internal protrusion unit (not shown) described in the second handle 620.

The slide unit fastening bar 608 of the push bar 600 is inserted into the first penetrating portion 201, the second penetrating portion 301 and the second fastening arm 522 and the end of the slide unit fastening bar 608 The first handle 610 and the second handle 620 are coupled to each other.

6 shows a pair of the half hexagon fixed unit 200 and the half hexagon slide unit 300. The pair of the half hexagon fixed unit 200 and the half hexagon slide unit 300 are connected to the lower cover unit 100, It should be understood that it is repeatedly provided.

On the other hand, a second fixing arm 522 protrudes from the upper side of the second side cover unit 520.

The first side cover unit 510 is coupled to the first coupling unit 141 of the lower cover unit 100 and the first side cover unit 510 is also provided with a first fixing arm 512 on the upper side outer wall thereof .

A third penetrating portion 513 is also formed at the upper end of the first side cover unit 510 and the slide unit fastening bar 608 of the push bar 600 is inserted.

Meanwhile, a honeycomb unit 530 may be formed at the lower end of the first side cover unit 510.

The honey discharging portion 530 communicates with the honeycomb groove 103.

It is of course possible to further include a sealing member (not shown) between the first side cover unit 510 and the first coupling part 141 to maintain the airtightness of the fluid.

The honeycomb groove 103 forming the end of the lower cover unit 100 is openable and closable by the opening / closing unit 700.

More specifically, the first side cover unit 510 is coupled to the lower cover unit 100, and the honey discharge unit 530 can be opened and closed by the opening / closing unit 700.

The opening and closing unit 700 may include a cap unit 710 and an auxiliary unit 720.

The auxiliary unit 720 may be extrinsic to the cap unit 710 and may be made of a material that is easy to grip and does not slip.

The auxiliary unit 720 may be formed of a circular pipe and may be connected to a honey discharge unit 530 communicated with the honeycomb groove 103 to thereby provide a flow path for transferring the honey of the honeycomb groove 103 will be.

7 is an enlarged perspective view of the opening and closing unit 700 and the honey discharge unit 530 in the preferred embodiments of the present invention.

The opening and closing unit 700 may include an auxiliary unit 720 coupled to the cap unit 710.

The cap unit 710 is a cylindrical member having a second embossing unit 713 protruding from its end and a second embossing unit 710 having a smaller diameter from the second embossing unit 713 toward the cap unit 710, (711).

The contact surface 715 forms the end surface of the cap unit 710. [

A honey discharge unit 530 having a discharge hole 531 is provided on the lower side of the side cover unit 500.

More specifically, the honey discharging unit 530 includes a first intaglio processing unit 532 which is circularly embossed from the side surface of the side cover unit 500, a first intaglio processing unit 532 which is formed from a first intaglio processing unit 532, And has a discharge hole 531 including a relief processing portion 533 and a through hole formed by the first relief processing portion 533.

The discharge hole 531 may be in communication with the honeycomb groove 103 and the bottom surface of the discharge hole 531 may be at the same position or lower than the bottom of the honeycomb groove 103.

The outer circumferential surface of the second embossing unit 713 of the opening and closing unit 700 is inserted into the honey discharging unit 530 while being closely contacted with the inner circumferential surface of the discharging hole 531 so that the inner circumferential surface of the first embossing unit 533 can be caught The structure is also preferable.

The second intaglio processing part 711 may be the same as the length of the inner circumferential surface of the first emboss processing part 533.

When the opening / closing unit 700 is coupled to the honey discharge unit 530, the contact surface 715 can be brought into close contact with the circumferential end of the first embossing unit 533, 700 are prevented from leaking to the outside until they are removed from the side cover unit 500.

Meanwhile, the auxiliary unit 720 may be coupled to the outer peripheral surface of the cap unit 710 and may be formed of a material having a good gripping force.

FIG. 8 is a cross-sectional view of a honeycomb automatic picking apparatus 1000 equipped with a honeycomb module M according to a first preferred embodiment of the present invention. FIG. 9 is a view showing a honeycomb module M of a second preferred embodiment of the present invention. Sectional view of the automatic honeycomb collecting apparatus 1000 according to the present invention.

It is a matter of course that a plurality of honey automatic collection modules M can be installed in the automatic honey collecting apparatus 1000 of each embodiment.

In other words, a plurality of automatic honey collection modules M can be installed in the housing 800.

The first and second fixing arms 512 and 522 formed on the side cover unit 500 are fixed to the housing 800 so that the automatic honeycomb module M is detached from the bottom surface 833 of the housing 800 And can be fixedly suspended while being spaced apart.

More specifically, the housing 800 includes an upper case 810, an intermediate case 820, and a lower case 830, and a first support frame 840 is interposed between the upper case 810 and the intermediate case 820. [ And the second support frame 850 can be coupled between the intermediate case 820 and the lower case 830. [

The first and second fixing arms 512 and 522 of the side cover unit 500 are fixed to the locking protrusions 821. The locking protrusions 821 are formed on both side walls of the intermediate case 820, will be.

The lower case 830 is provided with a foot supporting portion 831 protruding downward so as to be in contact with the ground and an opening 835 is formed in the lower side portion of the lower case 830 in a narrow and narrow shape, (Not shown).

On the other hand, a second cut-out portion 851, in which a part of the side wall is cut, is formed in the second support frame 850.

In order to collect the honey provided in the automatic honey collection module (M), it is not necessary to disassemble the honey collection automatic module (M) by removing the entire housing (800).

When the upper case 810 is lifted and separated and pressed by using the handle 601, the honey is dropped into the honeycomb grooves 103 at the second position and collected, and the honeycomb grooves 103 , The open / close unit 700 exposed to the second incision 851 may be removed.

In other words, the opening and closing unit 700 can be exposed to the second incision 851 and the opening and closing unit 700 exposed through the second cutout 851 can be used to remove the honeycomb It is easy to collect honey.

In addition, since the housing 800 having the honey automatic sampling module M of the first preferred embodiment of the present invention as shown in FIG. 8 does not have a part protruding separately from the side, a plurality of the housings 800 are attached side by side There is a possible advantage.

In addition, since the honeycomb module M and the housing 800 are structured such that the parts can be separated from each other, the honeycomb 800 can be easily moved to another area, .

In the case of the housing 800 having the honey automatic picking module M according to the second preferred embodiment of the present invention as shown in FIG. 9, the first support frame 840, unlike the housing 800 of the first embodiment, A first incision part 841 is further provided.

This is because the first handle 610 and the second handle 620 of the push bar 600 protrude to the outside of the housing 800 through the first incision part 841.

Therefore, it is understood that the internal structure of the housing 800 is the same as that of the first embodiment described above except for the above difference.

The first handle 610 and the second handle 620 of the push bar 600 protrude to the outside of the housing 800.

Since the first handle 610 and the second handle 620 of the push bar 600 protrude to the outside of the first incision portion 841 through the first incision portion 841, It is not necessary to open the upper case 810 even in order to collect the honey.

That is, when the first handle 610 and the second handle 620 are pressed without opening the upper case 810, the honey is collected into the honeycomb groove 103 as in the above-described operation principle, and the opening / closing unit 700 And thus can be finally recovered from the housing 800.

The first position described above is a position where the pushbars 600 are not operated, and a complete hexagon of honey bees storing honey is completed. The second position is a case where the pushbars 600 are operated, You will understand that it is the arrangement for collecting honey.

That is, in the above-described first embodiment or the second embodiment, the apparatus maintains the first position in the normal state, and the apparatus for maintaining the first position is not limited to the above, and various devices such as a lifting device, a hook, a clipping device, It should be understood that the present invention can be applied.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It will be understood that the present invention can be changed.

100: Lower cover unit
103: Honeycomb groove
105: Support surface
107: first protrusion
108: second protrusion
111: Third half hexagon
121: first side
122: second side
123: Third Side
124: fourth side
125: fifth face
130: lower guide wall surface
141: first fastening portion
142: second fastening portion
200: Half hexagon fixed unit
201: first penetration part
202: Lower half of the half hexagon fixed unit
211: First Half Hexagon
212: first half hexagon end
300: Half Hexagon slide unit
301: second through-
302: Lower half of the half hexagon slide unit
311: second half hexagon
312: second half hexagon end
400: upper cover unit
411: first guide projection
412: second guide projection
413: Guide groove
421: Sixth face
422: the seventh face
423:
424:
425: 10th face
430: upper guide wall surface
500: Side cover unit
510: first side cover unit
511: fourth half hexagon
512: first fixing arm
513: Third through-
520: second side cover unit
521: fifth half hexagon
522: second fixing arm
524: fourth through-
530: Honey discharge part
531: discharge hole
532: first engraving processing section
533: First emboss processing section
600: push bar
601: Handle portion
603: Support bar
605: connection unit
607: Slide unit fastening bar
608: Slide unit fastening bar
610:
620: second handle
630:
700: opening / closing unit
710: Cap unit
711: second engraving processing section
713: second emboss processing section
715: close face
720: Auxiliary unit
800: Housing
810: upper case
820: Middle case
821: hanging chin
830: Lower case
831:
833: bottom surface
835: opening
840: first support frame
841: First incision section
850: second support frame
851: second incision section
1000: Automatic honey extractor
M: Honey automatic collection module

Claims (12)

A lower cover unit (100);
A half hexagon fixed unit 200 fixed to the lower cover unit 100 with a first half hexagon 211 formed thereon;
The end portion 212 of the first half hexagon and the end portion 312 of the second half hexagon are in close contact with each other and the hexagon is completed And a second position where the end 312 of the second half hexagon is spaced apart from the end 212 of the first half hexagon, A slide unit (300); / RTI >
Honey automatic collection module.
The method according to claim 1,
In the lower cover unit 100,
A honeycomb slot (not shown) for receiving honey flowing in a gap formed between the end portion 212 of the first half hexagon and the end portion 312 of the second half hexagon when the half hexagon slide unit 300 is in the second position 103); Formed,
Honey automatic collection module.
3. The method of claim 2,
The honeycomb groove 103 has a U-shaped cross section,
Honey automatic collection module.
3. The method of claim 2,
The honeycomb groove (103) is inclined along the longitudinal direction of the lower cover unit (100)
Honey automatic collection module.
3. The method of claim 2,
An opening / closing unit (700) for opening / closing an end of the honeycomb groove (103); ≪ / RTI >
Honey automatic collection module.
The method according to claim 1,
In the lower cover unit 100,
A first protrusion 107 and a second protrusion 108 protruding from the support surface 105 formed along the inner surface are formed,
The lower end 202 of the half hexagon fixed unit is supported on the support surface 105 and the lower end 302 of the half hexagon slide unit is spaced apart from the projection 107 in the first position, Which is in contact with the projection 107,
Honey automatic collection module.
The method according to claim 6,
The distance between the lower end 302 of the half hexagon slide unit and the upper end of the protrusion 107 at the first position is half the distance between the opposite ends of the first half hexagon 211 or the distance between the opposite ends of the second half hexagon 311 Half of the distance between both ends,
Honey automatic collection module.
The method according to claim 1,
In the lower cover unit 100,
And a third half hexagon (111) corresponding to the first half hexagon (211) and the second half hexagon (311) are formed in a first position,
Honey automatic collection module.
The method according to claim 1,
The first half hexagon 211 has an inclination such that the height of the first half hexagon 211 decreases from both sides of the half hexagon fixed unit 200 toward the center of the half hexagon fixed unit 200, The half-hexagon slide unit 300 is inclined so that its height decreases from both sides of the half-
Honey automatic collection module.
The method according to claim 1,
An upper cover unit 400 coupled to the upper ends of the half hexagon fixed unit 200 and the half hexagon slide unit 300;
A side cover unit 500 disposed on a side surface of the half hexagon slide unit 300 and coupled to the lower cover unit 100;
Further comprising a push bar (600) coupled to the half hexagon slide unit (300) while being provided in the upper cover unit (400) to slidely drive the half hexagon slide unit (300)
Honey automatic collection module.
11. The method of claim 10,
The side cover unit 500 is provided with a honey discharge unit 530,
Honey automatic collection module.
An automatic honeycomb device comprising a honey automatic sampling module according to claim 10,
Wherein the honeycomb module is fixed to the housing 800 while the fixing arm protruding from the side cover unit 500 is fixed to the housing 800, ), Which is spaced apart from the bottom surface (833)
Automatic honey collection device.

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